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llvm-6502/lib/Analysis/DataStructure/CompleteBottomUp.cpp
Chris Lattner cc1f24585e Propagate eq sets through the bu graphs to the cbu and eq graphs, fixing 
a crash of the sfv on 188.ammp


git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@21478 91177308-0d34-0410-b5e6-96231b3b80d8
2005-04-23 21:11:05 +00:00

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//===- CompleteBottomUp.cpp - Complete Bottom-Up Data Structure Graphs ----===//
//
// The LLVM Compiler Infrastructure
//
// This file was developed by the LLVM research group and is distributed under
// the University of Illinois Open Source License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This is the exact same as the bottom-up graphs, but we use take a completed
// call graph and inline all indirect callees into their callers graphs, making
// the result more useful for things like pool allocation.
//
//===----------------------------------------------------------------------===//
#define DEBUG_TYPE "cbudatastructure"
#include "llvm/Analysis/DataStructure/DataStructure.h"
#include "llvm/Module.h"
#include "llvm/Analysis/DataStructure/DSGraph.h"
#include "llvm/Support/Debug.h"
#include "llvm/ADT/SCCIterator.h"
#include "llvm/ADT/Statistic.h"
#include "llvm/ADT/STLExtras.h"
using namespace llvm;
namespace {
RegisterAnalysis<CompleteBUDataStructures>
X("cbudatastructure", "'Complete' Bottom-up Data Structure Analysis");
Statistic<> NumCBUInlines("cbudatastructures", "Number of graphs inlined");
}
// run - Calculate the bottom up data structure graphs for each function in the
// program.
//
bool CompleteBUDataStructures::runOnModule(Module &M) {
BUDataStructures &BU = getAnalysis<BUDataStructures>();
GlobalECs = BU.getGlobalECs();
GlobalsGraph = new DSGraph(BU.getGlobalsGraph(), GlobalECs);
GlobalsGraph->setPrintAuxCalls();
// Our call graph is the same as the BU data structures call graph
ActualCallees = BU.getActualCallees();
std::vector<DSGraph*> Stack;
hash_map<DSGraph*, unsigned> ValMap;
unsigned NextID = 1;
Function *MainFunc = M.getMainFunction();
if (MainFunc) {
if (!MainFunc->isExternal())
calculateSCCGraphs(getOrCreateGraph(*MainFunc), Stack, NextID, ValMap);
} else {
std::cerr << "CBU-DSA: No 'main' function found!\n";
}
for (Module::iterator I = M.begin(), E = M.end(); I != E; ++I)
if (!I->isExternal() && !DSInfo.count(I))
calculateSCCGraphs(getOrCreateGraph(*I), Stack, NextID, ValMap);
GlobalsGraph->removeTriviallyDeadNodes();
// Merge the globals variables (not the calls) from the globals graph back
// into the main function's graph so that the main function contains all of
// the information about global pools and GV usage in the program.
if (MainFunc && !MainFunc->isExternal()) {
DSGraph &MainGraph = getOrCreateGraph(*MainFunc);
const DSGraph &GG = *MainGraph.getGlobalsGraph();
ReachabilityCloner RC(MainGraph, GG,
DSGraph::DontCloneCallNodes |
DSGraph::DontCloneAuxCallNodes);
// Clone the global nodes into this graph.
for (DSScalarMap::global_iterator I = GG.getScalarMap().global_begin(),
E = GG.getScalarMap().global_end(); I != E; ++I)
if (isa<GlobalVariable>(*I))
RC.getClonedNH(GG.getNodeForValue(*I));
MainGraph.maskIncompleteMarkers();
MainGraph.markIncompleteNodes(DSGraph::MarkFormalArgs |
DSGraph::IgnoreGlobals);
}
return false;
}
DSGraph &CompleteBUDataStructures::getOrCreateGraph(Function &F) {
// Has the graph already been created?
DSGraph *&Graph = DSInfo[&F];
if (Graph) return *Graph;
// Copy the BU graph...
Graph = new DSGraph(getAnalysis<BUDataStructures>().getDSGraph(F), GlobalECs);
Graph->setGlobalsGraph(GlobalsGraph);
Graph->setPrintAuxCalls();
// Make sure to update the DSInfo map for all of the functions currently in
// this graph!
for (DSGraph::retnodes_iterator I = Graph->retnodes_begin();
I != Graph->retnodes_end(); ++I)
DSInfo[I->first] = Graph;
return *Graph;
}
unsigned CompleteBUDataStructures::calculateSCCGraphs(DSGraph &FG,
std::vector<DSGraph*> &Stack,
unsigned &NextID,
hash_map<DSGraph*, unsigned> &ValMap) {
assert(!ValMap.count(&FG) && "Shouldn't revisit functions!");
unsigned Min = NextID++, MyID = Min;
ValMap[&FG] = Min;
Stack.push_back(&FG);
// The edges out of the current node are the call site targets...
for (DSGraph::fc_iterator CI = FG.fc_begin(), CE = FG.fc_end();
CI != CE; ++CI) {
Instruction *Call = CI->getCallSite().getInstruction();
// Loop over all of the actually called functions...
callee_iterator I = callee_begin(Call), E = callee_end(Call);
for (; I != E && I->first == Call; ++I) {
assert(I->first == Call && "Bad callee construction!");
if (!I->second->isExternal()) {
DSGraph &Callee = getOrCreateGraph(*I->second);
unsigned M;
// Have we visited the destination function yet?
hash_map<DSGraph*, unsigned>::iterator It = ValMap.find(&Callee);
if (It == ValMap.end()) // No, visit it now.
M = calculateSCCGraphs(Callee, Stack, NextID, ValMap);
else // Yes, get it's number.
M = It->second;
if (M < Min) Min = M;
}
}
}
assert(ValMap[&FG] == MyID && "SCC construction assumption wrong!");
if (Min != MyID)
return Min; // This is part of a larger SCC!
// If this is a new SCC, process it now.
bool IsMultiNodeSCC = false;
while (Stack.back() != &FG) {
DSGraph *NG = Stack.back();
ValMap[NG] = ~0U;
FG.cloneInto(*NG);
// Update the DSInfo map and delete the old graph...
for (DSGraph::retnodes_iterator I = NG->retnodes_begin();
I != NG->retnodes_end(); ++I)
DSInfo[I->first] = &FG;
// Remove NG from the ValMap since the pointer may get recycled.
ValMap.erase(NG);
delete NG;
Stack.pop_back();
IsMultiNodeSCC = true;
}
// Clean up the graph before we start inlining a bunch again...
if (IsMultiNodeSCC)
FG.removeTriviallyDeadNodes();
Stack.pop_back();
processGraph(FG);
ValMap[&FG] = ~0U;
return MyID;
}
/// processGraph - Process the BU graphs for the program in bottom-up order on
/// the SCC of the __ACTUAL__ call graph. This builds "complete" BU graphs.
void CompleteBUDataStructures::processGraph(DSGraph &G) {
hash_set<Instruction*> calls;
// The edges out of the current node are the call site targets...
unsigned i = 0;
for (DSGraph::fc_iterator CI = G.fc_begin(), CE = G.fc_end(); CI != CE;
++CI, ++i) {
const DSCallSite &CS = *CI;
Instruction *TheCall = CS.getCallSite().getInstruction();
assert(calls.insert(TheCall).second &&
"Call instruction occurs multiple times in graph??");
// Fast path for noop calls. Note that we don't care about merging globals
// in the callee with nodes in the caller here.
if (CS.getRetVal().isNull() && CS.getNumPtrArgs() == 0)
continue;
// Loop over all of the potentially called functions...
// Inline direct calls as well as indirect calls because the direct
// callee may have indirect callees and so may have changed.
//
callee_iterator I = callee_begin(TheCall),E = callee_end(TheCall);
unsigned TNum = 0, Num = 0;
DEBUG(Num = std::distance(I, E));
for (; I != E; ++I, ++TNum) {
assert(I->first == TheCall && "Bad callee construction!");
Function *CalleeFunc = I->second;
if (!CalleeFunc->isExternal()) {
// Merge the callee's graph into this graph. This works for normal
// calls or for self recursion within an SCC.
DSGraph &GI = getOrCreateGraph(*CalleeFunc);
++NumCBUInlines;
G.mergeInGraph(CS, *CalleeFunc, GI,
DSGraph::StripAllocaBit | DSGraph::DontCloneCallNodes |
DSGraph::DontCloneAuxCallNodes);
DEBUG(std::cerr << " Inlining graph [" << i << "/"
<< G.getFunctionCalls().size()-1
<< ":" << TNum << "/" << Num-1 << "] for "
<< CalleeFunc->getName() << "["
<< GI.getGraphSize() << "+" << GI.getAuxFunctionCalls().size()
<< "] into '" /*<< G.getFunctionNames()*/ << "' ["
<< G.getGraphSize() << "+" << G.getAuxFunctionCalls().size()
<< "]\n");
}
}
}
// Recompute the Incomplete markers
G.maskIncompleteMarkers();
G.markIncompleteNodes(DSGraph::MarkFormalArgs);
// Delete dead nodes. Treat globals that are unreachable but that can
// reach live nodes as live.
G.removeDeadNodes(DSGraph::KeepUnreachableGlobals);
}
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